LM2412 Monolithic Triple 2.8 ns CRT Driver
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1 Monolithic Triple 2.8 ns CRT Driver General Description The is an integrated high voltage CRT driver circuit designed for use in high resolution color monitor applications. The IC contains three high input impedance, wide band amplifiers which directly drive the RGB cathodes of a CRT. Each channel has its gain internally set to 14 and can drive CRT capacitive loads as well as resistive loads presented by other applications, limited only by the package s power dissipation. The is a low power alternative of the LM2402 The IC is packaged in an industry standard 11 lead TO-220 molded plastic power package. See thermal considerations section for heat sinking requirements. Features n Rise/fall times typically 2.8 ns with 8 pf load at 40 V PP Schematic and Connection Diagrams December 1999 n Lower power than LM2402 with the same bandwidth n Well matched with LM2202 video preamps n Output swing capability: 50 V PP for V CC = 80V n 1V to 5V input range n Stable with 0-20 pf capacitive loads and inductive peaking networks n Convenient TO-220 staggered lead package style n Standard LM240X family pinout which is designed for easy PCB layout Applications n CRT driver for color monitors with display resolutions up to 1600 x 1200 with 85 Hz refresh rate n Pixel clock frequency up to 200 MHz Monolithic Triple 2.8 ns CRT Driver FIGURE 1. Simplified Schematic Diagram (One Channel) DS Top View Order Number T See NS package Number DS National Semiconductor Corporation DS
2 Absolute Maximum Ratings (Notes 1, 2) If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications. ESD Tolerance Human Body Model Machine Model 2 kv 250V Supply Voltage, V CC +90V Bias Voltage, V BB +16V Input Voltage, V IN 0V to 6V Storage Temperature Range, T STG 65 C to +150 C Lead Temperature (Soldering, <10 sec.) 300 C Operating Ranges (Note 3) V CC +60V to +85V V BB +8V to +15V V IN +1V to +5V V OUT (V CC = 80V, V BB = 12V) +15V to +75V Case Temperature 20 C to +100 C Do not operate the part without a heat sink. Electrical Characteristics (See Figure 2 for Test Circuit) Unless otherwise noted: V CC = +80V, V BB = +12V, V IN = +3.3 V DC,C L = 8 pf, T C = 60 C, no AC input. Symbol Parameter Conditions Min Typ Max Units I CC Supply Current Per Channel, No Output Load ma I BB Bias Current All Three Channels ma V OUT DC Output Voltage V IN = 1.9V V DC A V DC Voltage Gain A V Gain Matching (Note 4) 1.0 db LE Linearity Error (Notes 4, 5) 3.5 % t r Rise Time (Notes 6, 7) 10% to 90%, 40 V PP Output (1 MHz) ns t f Fall Time (Notes 6, 7) 10% to 90%, 40 V PP Output (1 MHz) ns OS Overshoot 40 V PP Output (1 MHz) 5 % Note 1: Absolute Maximum Ratings are those values beyond which the safety of the device cannot be guaranteed. They are not meant to imply that the devices should be operated at these limits. The table of Electrical Characteristics specifies conditions of device operation. Note 2: All voltages are measured with respect to GND, unless otherwise specified. Note 3: Operating ratings indicate conditions for which the device is functional, but do not guarantee specific performance limits. For guaranteed specifications and test conditions, see the Electrical Characteristics. The guaranteed specifications apply only for the test conditions listed. Some performance characteristics may change when the device is not operated under the listed test conditions. Note 4: Calculated value from voltage gain test on each channel. Note 5: Linearity error is the variation in DC gain from V IN = 1.6V to V IN = 5.0V. Note 6: Input from signal generator: t r,t f <1 ns. Note 7: 100% tested in production. These limits are not used to calculate outgoing quality levels. AC Test Circuit FIGURE 2. Test Circuit (One Channel) DS Figure 2 shows a typical test circuit for evaluation of the. This circuit is designed to allow testing of the in a 50Ω environment without the use of an expensive FET probe. The combined resitors of 4950Ω at the output form a 200:1 voltage divider when connected to a 50Ω load. The test board supplied by NSC also offers the option to test the with a FET probe. C L is the total capacitance at the output, including the board capacitance. 2
3 Typical Performance Characteristics FIGURE 3. V IN vs V OUT DS DS FIGURE 6. Power Dissipation vs Frequency FIGURE 4. Speed vs Temp. DS FIGURE 7. Speed vs Offset DS FIGURE 5. Rise/Fall Time DS FIGURE 8. Bandwidth DS
4 Theory of Operation The is a high voltage monolithic three channel CRT driver suitable for very high resolution display applications, up to 1600 x 1200 at 85 Hz refresh rate. The operates using 80V and 12V power supplies. The part is housed in the industry standard 11-lead TO-220 molded plastic power package. The simplified circuit diagram of one channel of the is shown in Figure 1. A PNP emitter follower, Q5, provides input buffering. This minimizes the current loading of the video pre-amp. R9 is used to turn on Q5 when there is no input. With Q5 turned on, Q1 will be almost completely off, minimizing the current flow through Q1 and Q2. This will drive the output stage near the V CC rail, minimizing the power dissipation with no inputs. R6 is a pull-up resistor for Q5 and also limits the current flow through Q5. R3 and R2 are used to set the current flow through Q1 and Q2. The ratio of R1 to R2 is used to set the gain of the. R1, R2 and R3 are all related when calculating the output voltage of the CRT driver. R b limits the current through the base of Q2. Q1 and Q2 are in a cascode configuration. Q1 is a low voltage and very fast transistor. Q2 is a higher voltage transistor. The cascode configuration gives the equivalent of a very fast and high voltage transistor. The two output transistors, Q3 and Q4, form a class B amplifier output stage. R4 and R5 are used to limit the current through the output stage and set the output impedance of the. Q6, along with R7 and R8 set the bias current through Q3 and Q4 when there is no change in the signal level. This bias current minimizes the crossover distortion of the output stage. With this bias current the output stage now becomes a class AB amplifier with a crossover distortion much lower than a class B amplifier. Figure 2 shows a typical test circuit for evaluation of the. Due to the very wide bandwidth of the, it is highly recommended that the stand alone board suplied by NSC be used for the evaluation of the CRT driver s performance. The 50Ω resistor is used to duplicate the required series resistor in the actual application. This resistor would be part of the arc-over protection circuit. The input signal from the generator is AC coupled to the input of the CRT driver. Application Hints INTRODUCTION National Semiconductor (NSC) is committed to providing application information that assists our customers in obtaining the best performance possible from our products. The following information is provided in order to support this commitment. The reader should be aware that the optimization of performance was done using a specific printed circuit board designed at NSC. Variations in performance can be realized due to physical changes in the printed circuit board and the application. Therefore, the designer should know that component value changes may be required in order to optimize performance in a given application. The values shown in this document can be used as a starting point for evaluation purposes. When working with high bandwidth circuits, good layout practices are also critical to achieving maximum performance. POWER SUPPLY BYPASS Since the is a very high bandwidth amplifier, proper power supply bypassing is critical for optimum performance. Improper power supply bypassing can result in large overshoot, ringing and oscillation. A 0.1 µf capacitor should be connected from the supply pin, V CC, to ground, as close to the supply and ground pins as is practical. Additionally, a 10 µf to 100 µf electrolytic capacitor should be connected from the supply pin to ground. The electrolytic capacitor should also be placed reasonably close to the s supply and ground pins. A 0.1 µf capacitor should be connected from the bias pin, V BB, to ground, as close as is practical to the part. ARC PROTECTION During normal CRT operation, internal arcing may occasionally occur. Spark gaps, in the range of 200V, connected from the CRT cathodes to CRT ground will limit the maximum voltage, but to a value that is much higher than allowable on the. This fast, high voltage, high energy pulse can damage the output stage. The application circuit shown in Figure 9 is designed to help clamp the voltage at the output of the to a safe level. The clamp diodes should have a fast transient response, high peak current rating, low series impedance and low shunt capacitance. FDH400 or equivalent diodes are recommended. D1 and D2 should have short, low impedance connections to V CC and ground respectively. The cathode of D1 should be located very close to a separately decoupled bypass capacitor. The ground connection of the diode and the decoupling capacitor should be very close to the ground. This will significantly reduce the high frequency voltage transients that the would be subjected to during an arc-over condition. Resistor R2 limits the arc-over current that is seen by the diodes while R1 limits the current into the as well as the voltage stress at the outputs of the device. R2 should be a 1 2W solid carbon type resistor. R1 can be a 1 4W metal or carbon film type resistor. Inductor L1 is critical to reduce the initial high frequency voltage levels that the would be subjected to during an arc-over. Having large value resistors for R1 and R2 would be desirable, but this has the effect of increasing rise and fall times. The inductor will not only help protect the device but it will also help optimize rise and fall times as well as minimize EMI. For proper arc protection, it is important to not omit any of the arc protection components shown in Figure 9. The values of L1 and R1 may need to be adjusted for a particular application. The recommended minimum value for R1 is 75Ω, with L1 =.049 µh. DS FIGURE 9. One Channel of the with the Recommended Arc Protection Circuit. OPTIMIZING TRANSIENT RESPONSE Referring to Figure 9, there are three components (R1, R2 and L1) that can be adjusted to optimize the transient response of the application circuit. Increasing the values of R1 4
5 and R2 will slow the circuit down while decreasing overshoot. Increasing the value of L1 will speed up the circuit as well as increase overshoot. It is very important to use inductors with very high self-resonant frequencies, preferably above 300 MHz. Air core inductors from J.W. Miller Magnetics (part #75F518MPC) were used for optimizing the performance of the device in the NSC application board. The values shown in Figure 9 can be used as a good starting point for the evaluation of the. Effect of Load Capacitance The output rise and fall times as well as overshoot will vary as the load capacitance varies. The values of the output circuit (R1, R2 and L1 in Figure 9) should be chosen based on the nominal load capacitance. Once this is done the performance of the design can be checked by varying the load based on what the expected variation will be during production. Effect of Offset Figure 7 shows the variation in rise and fall times when the output offset of the device is varied from 35 to 55 V DC. The rise and fall times show about the same overall variation. The slightly slower fall time is fastest near the center point of 45V, making this the optimum operating point. At the low and high output offset range, the characteristic of rise/fall time is slower due to the saturation of Q3 and Q4. The recovery time of the output transistors takes longer coming out of saturation thus slows down the rise and fall times. THERMAL CONSIDERATIONS Figure 4 shows the performance of the in the test circuit shown in Figure 2 as a function of case temperature. Figure 4 shows that both the rise and fall times of the become slightly longer as the case temperature increases from 40 C to 125 C. In addition to exceeding the safe operating temperature, the rise and fall times will typically exceed 3 nsec. Please note that the is never to be operated over a case temperature of 100 C. In addition to exceeding the safe operating temperature, the rise and fall times will typically exceed 3 nsec. Figure 6 shows the total power dissipation of the vs. Frequency when all three channels of the device are driving an 8 pf load. Typically the active time is about 72% of the total time for one frame. Worst case power dissipation is when a one on, one off pixel is displayed over the active time of the video input. This is the condition used to measure the total power disspation of the at different input frequencies. Figure 6 gives all the information a monitor designer normally needs for worst case power dissipation. However, if the designer wants to calculate the power dissipation for an active time different from 72%, this can be done using the information in Figure 14. The recommended input black level voltage is 1.9V. From Figure 14, if a 1.9V input is used for the black level, then power dissipation during the inactive video time is 2.7W. This includes both the 80V and 12V supplies. If the monitor designer chooses to calculate the power dissipation for the using an active video time different from 72%, then he needs to use the following steps when using a 1.9V input black level: 1. Multiply the black level power dissipation, 2.7W, by 0.28, the result is 0.8W. 2. Choose the maximum frequency to be used. A typical application would use 100 MHz, or a 200 MHz pixel clock. The power dissipation is 13.8W. 3. Subtract the 0.8W from the power dissipation from Figure 6. For 100 MHz this would be = 13.0W. 4. Divide the result from step 3 by For 100 MHz, the result is 18.1W. 5. Multiply the result in 4 by the new active time percentage. 6. Multiply 2.7W by the new inactive time. 7. Add together the results of steps 5 and 6. This is the expected power dissipation for the in the designer s application. The case temperature must be maintained below 100 C. If the maximum expected ambient temperature is 70 C and the maximum power dissipation is 13.8W (from Figure MHz) then a maximum heat sink thermal resistance can be calculated: TYPICAL APPLICATION A typical application of the is shown in Figure 10. Used in conjunction with three LM2202s, a complete video channel from monitor input to CRT cathode can be achieved. Performance is excellent for resolutions up to 1600 x 1200 and pixel clock frequencies at 200 MHz. Figure 10 is the schematic for the NSC demonstration board that can be used to evaluate the LM2202/ combination in a monitor. PC Board Layout Considerations For optimum performance, an adequate ground plane, isolation between channels, good supply bypassing and minimizing unwanted feedback are necessary. Also, the length of the signal traces from the preamplifier to the and from the to the CRT cathode should be as short as possible. The red video trace from the buffer transistor to the input is about the absolute maximum length one should consider on a PCB layout. If possible the traces should actually be shorter than the red video trace. The following references are recommended for video board designers: Ott, Henry W., Noise Reduction Techniques in Electronic Systems, John Wiley & Sons, New York, Guide to CRT Video Design, National Semiconductor Application Note 861. Video Amplifier Design for Computer Monitors, National Semiconductor Application Note Pease, Robert A., Troubleshooting Analog Circuits, Butterworth-Heinemann, Because of its high small signal bandwidth, the part may oscillate in a monitor if feedback occurs around the video channel through the chassis wiring. To prevent this, leads to the video amplifier input circuit should be shielded, and input circuit wiring should be spaced as far as possible from output circuit wiring. NSC Demonstration Board Figures 11, 12 show routing and component placement on the NSC LM2202/2412 demonstration board. The schematic of the board is shown in Figure 10. This board provides a 5
6 good example of a layout that can be used as a guide for future layouts. Note the location of the following components: C47 -V CC bypass capacitor, located very close to pin 6 and ground pins. (Figure 12) C49 -V BB bypass capacitor, located close to pin 10 and ground. (Figure 12) C46 and C77 -V CC bypass capacitors, near and V CC clamp diodes. Very important for arc protection. (Figure 11) The routing of the outputs to the CRT is very critical to achieving optimum performance. Figure 13 shows the routing and component placement from pin 1 to the blue cathode. Note that the components are placed so that they almost line up from the output pin of the to the blue cathode pin of the CRT connector. This is done to minimize the length of the video path between these two components. The direct video path is shown in by a dark gray line through the components and the PCB traces. Note also that D24, D25, R58 and D19 are placed to keep the size of the video nodes to a minimum (R58 is located under D19). This minimizes parasitic capacitance in the video path and also enhances the effectiveness of the protection diodes. The traces in the video nodes to these components are shown by the white line. The anode of protection diode D25 is connected directly to the ground plane giving a short and direct path to the ground pins. The cathode of D24 is connected to V CC very close to decoupling capacitor C78 (Figure 13) which is connected to the same section of the ground plane as D25. The diode placement and routing is very important for minimizing the voltage stress on the during an arc-over event. Lastly, notice that S3 is placed very close to the blue cathode and is tied directly to CRT ground. 6
7 FIGURE 10. Demo Board Schematic DS
8 FIGURE 11. PCB Top Layer DS
9 FIGURE 12. PCB Bottom Layer DS
10 DS FIGURE 13. PCB CRT Driver, Blue Channel Output DS FIGURE 14. I CC and I BB vs V IN 10
11 Physical Dimensions inches (millimeters) unless otherwise noted 11 Lead Molded TO-220 NS Package Number TA11B Order Number T Monolithic Triple 2.8 ns CRT Driver LIFE SUPPORT POLICY NATIONAL S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION. As used herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the user. 2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. National Semiconductor Corporation Americas Tel: Fax: support@nsc.com National Semiconductor Europe Fax: +49 (0) europe.support@nsc.com Deutsch Tel: +49 (0) English Tel: +44 (0) Français Tel: +33 (0) National Semiconductor Asia Pacific Customer Response Group Tel: Fax: ap.support@nsc.com National Semiconductor Japan Ltd. Tel: Fax: National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.
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